CN112277144A

CN112277144A - Water pouring device and method for double-S-pipeline ceramic manufacturing process of closestool

Info

Publication number: CN112277144A
Application number: CN201910674511.4A
Authority: CN
Inventors: 徐凯; 王金涛; 朱维金; 刘金鹤; 王赫
Original assignee: Shenyang Siasun Robot and Automation Co Ltd
Current assignee: Shenyang Siasun Robot and Automation Co Ltd
Priority date: 2019-07-25
Filing date: 2019-07-25
Publication date: 2021-01-29
Anticipated expiration: 2039-07-25
Also published as: CN112277144B

Abstract

The invention relates to a water pouring device and a water pouring method for a double-S pipeline ceramic manufacturing process of a closestool, wherein the closestool is placed on a supporting plate and is transmitted on a narrow-direction roller line body; supports are symmetrically arranged on two sides of the narrow roller line body, the overturning support is hinged between the supports on the two sides, one end of the overturning air cylinder is hinged on the supports, and the other end of the overturning air cylinder is hinged with the overturning support; a jacking mechanism is arranged on the narrow-direction roller line body between the supports at the two sides, the closestool and the supporting plate are conveyed to a position above the jacking mechanism to stop, and the narrow-direction roller line body is jacked up by the jacking mechanism to be separated from the narrow-direction roller line body; bracket mechanisms arranged on the overturning bracket are symmetrically arranged on two sides of the closestool, and the execution ends of the bracket mechanisms are supported at the bottom of the supporting plate after the closestool and the supporting plate are jacked up; the two sides of the closestool are also symmetrically provided with stopping mechanisms which are arranged on the overturning bracket, and the actuating ends of the stopping mechanisms are abutted against the rear part of the closestool and are stopped at the rear part of the closestool after the closestool and the supporting plate are jacked up. The invention improves the working efficiency and the process quality.

Description

Water pouring device and method for double-S-pipeline ceramic manufacturing process of closestool

Technical Field

The invention relates to automation equipment in the bathroom industry, in particular to a water pouring device and a water pouring method for a ceramic manufacturing process of double S pipelines of a closestool.

Background

The ceramic product glaze blowing in the bathroom industry is suitable for large-scale blanks, thin-body blanks, colored glaze porcelain and blanks needing glazing of a plurality of kinds. Using a section of small bamboo tube, covering one end with spun yarn, dipping in glaze slip, aligning the portion of the ware blank to be glazed, using the other end of the bamboo tube to make the glaze slip be attached to the surface of the ware blank through the yarn hole, and repeatedly blowing glaze to obtain the glaze layer with proper thickness. According to the size of the ware and the difference of the glaze, the blowing is carried out for three or four times in a few times, and is carried out for seventeen or eight times in a many times. The invention of glaze blowing makes the inside and outside of the ware be evenly glazed. The siphon device is the core system of the flushing closestool. An S-shaped water pipe, called a siphon, is arranged below the inner part of the closestool, and many people only take the liquid seal effect of isolating the odor. When enough water is available to make the water level in the pipe step over the highest point, a siphon phenomenon can be caused. The water in the barrel will turn over the edge of the barrel higher than the liquid level along the pipe and flow to a lower part outside the barrel, namely upwards and downwards until the water in the barrel is completely smooth. This phenomenon can clean the inside of the toilet bowl well. However, sufficient water must be poured into the toilet bowl at a sufficiently fast rate to cause significant siphoning. The key to the cistern is that the water inside is rapidly drained in a short enough time to create a sufficient siphoning effect to draw all water and waste from the toilet bowl. According to the grasped data, the double S siphon and turbo technology of the toilet bowl is the core of the water saving field of the bathroom or toilet bowl. The double S pipelines mainly refer to the pipeline design form adopted in the closestool, the siphon pulling force of the pipelines can be enhanced, the super strong siphon suction force is realized by utilizing the air pressure principle, and the technology can help to improve the impulsive force of water.

At present, double S pipelines inside a closestool are made of ceramic to be used for draining water in a process of blowing, absorbing water or manually pouring water. Dust is easy to be mixed in the blowing mode; the ceramic closestool is not manufactured in a kiln at high temperature, so the inner wall of the closestool is easily scratched in a water absorption mode; and manual pouring of water is not ergonomic.

Disclosure of Invention

In order to solve the problems of the drainage of the double-S pipeline ceramic manufacturing process in the toilet, the invention aims to provide a water pouring device and a water pouring method of the double-S pipeline ceramic manufacturing process of the toilet.

The purpose of the invention is realized by the following technical scheme:

the closestool is placed on the supporting plate and is transmitted on the narrow-direction roller line body; the water pouring device comprises a turnover mechanism, a jacking mechanism, a bracket mechanism and a stopping mechanism, wherein the turnover mechanism comprises supports, a turnover cylinder and a turnover support, the supports are symmetrically arranged on two sides of the narrow roller line body, the turnover support is hinged between the supports on the two sides, one end of the turnover cylinder is hinged to the supports, and the other end of the turnover cylinder is hinged to the turnover support; a jacking mechanism is arranged on the narrow-direction roller line body between the supports at two sides, the closestool and the supporting plate are conveyed to a position above the jacking mechanism to stop, and the narrow-direction roller line body is jacked up by the jacking mechanism to be separated from the narrow-direction roller line body; the two sides of the closestool are symmetrically provided with bracket mechanisms arranged on the overturning bracket, and the executing ends of the bracket mechanisms are supported at the bottom of the supporting plate after the closestool and the supporting plate are jacked up; the two sides of the closestool are also symmetrically provided with stopping mechanisms which are arranged on the overturning bracket, and the executing ends of the stopping mechanisms are abutted against the rear part of the closestool and are stopped at the rear part of the closestool after the closestool and the supporting plate are jacked up;

an auxiliary supporting mechanism is arranged on the overturning bracket, and the execution end of the auxiliary supporting mechanism is pressed at the front part of the closestool after the closestool and the supporting plate are jacked up;

the auxiliary supporting mechanism comprises an auxiliary cylinder and an auxiliary pressing plate, the auxiliary cylinder is arranged on the overturning bracket, and a piston rod of the auxiliary cylinder is used as an execution end and is connected with the auxiliary pressing plate;

the jacking mechanism comprises a jacking cylinder, the jacking cylinder is arranged on the narrow-direction roller line body, and when the toilet and the supporting plate are conveyed to a position above the jacking mechanism to stop, a piston rod of the jacking cylinder jacks up the toilet and the supporting plate along the height direction;

when a piston rod of the jacking cylinder jacks up the closestool and the supporting plate upwards, the piston rod of the jacking cylinder is abutted against the middle position of the lower surface of the supporting plate;

the bracket mechanism comprises a bracket cylinder and a bracket hook as an execution end, one end of the bracket cylinder and the bracket hook are respectively hinged on the overturning bracket, the other end of the bracket cylinder is hinged with the bracket hook, and the bracket hook supports the lower surface of the supporting plate after the closestool and the supporting plate are jacked up;

the bracket cylinder is hinged with the bracket rod at the other end, so that the bracket hooks are driven to synchronously act;

the stopping mechanism comprises a stopping cylinder and a stopping hook serving as an execution end, one end of the stopping cylinder and the stopping hook are respectively hinged to the overturning bracket, the other end of the stopping cylinder is hinged to one end of the stopping hook, and the other end of the stopping hook is abutted to the rear part of the closestool after the closestool and the supporting plate are lifted;

the water pouring method of the water pouring device of the closestool double-S pipeline ceramic manufacturing process comprises the following steps:

the toilet and the supporting plate are conveyed to the upper part of the jacking mechanism on the narrow-direction roller line body and stop, and the jacking mechanism works to jack up the toilet and the supporting plate upwards along the height direction and separate from the narrow-direction roller line body; the bracket mechanism and the stopping mechanism on the two sides of the closestool respectively work, the supporting plate and the closestool are supported by the executing end of the bracket mechanism on the two sides below the supporting plate, and the closestool is stopped by the executing end of the stopping mechanism on the two sides of the rear part of the closestool; then, the overturning cylinder works to drive the overturning support to drive the bracket mechanism and the stopping mechanism on the overturning support and the closestool and the supporting plate which are supported and stopped by the bracket mechanism and the stopping mechanism to overturn and reset for multiple times until water in the double S pipelines of the closestool is completely discharged from the water outlet; the toilet bowl and the supporting plate after water pouring are driven by the jacking mechanism to fall on the narrow-direction roller line body and then are continuously transmitted by the narrow-direction roller line body;

wherein: an auxiliary supporting mechanism arranged on the overturning support is arranged above the jacking mechanism, an execution end of the auxiliary supporting mechanism presses the front part of the closestool after the closestool and the supporting plate are jacked up, and front pressing, rear blocking and lower supporting are realized in the overturning and resetting processes of the closestool and the supporting plate.

The invention has the advantages and positive effects that:

1. the water pouring device can automatically complete the overturning and resetting of the closestool and the supporting plate, and improves the working efficiency.

2. The pouring method of the invention utilizes different fluid mechanics principles and pouring modes for limited times, and the double-S pipeline ceramic inside the closestool is made into process drainage, thereby improving the process quality.

Drawings

FIG. 1 is a schematic perspective view of a water pouring device according to the present invention;

FIG. 2 is a front view of the structure of the water pouring device of the present invention;

FIG. 3 is a side view of the structure of the water pouring device of the present invention;

FIG. 4 is a schematic view of the three-dimensional structure of the water pouring device of the present invention with the support and the turning bracket removed;

FIG. 5 is a second schematic view of the water pouring device of the present invention with the stand and the turning bracket removed;

FIG. 6 is a third schematic view of the three-dimensional structure of the water pouring device of the present invention after the support and the turning bracket are removed;

FIG. 7 is a fourth schematic view of the three-dimensional structure of the water pouring device of the present invention with the support and the turning bracket removed;

FIG. 8 is a schematic perspective view of a jacking mechanism of the water pouring device of the present invention;

FIG. 9 is a top view of the structure of the water pouring device of the present invention;

FIG. 10 is a schematic view of the initial position of the dual S-channel inside the toilet bowl during pouring of water in accordance with the present invention;

FIG. 11 is a schematic diagram of the position of the double S pipes inside the toilet bowl after one-time turning during the pouring process of the present invention;

FIG. 12 is a schematic view of the position of the double S-shaped pipes inside the toilet bowl after one-time resetting in the water pouring process of the present invention;

FIG. 13 is a schematic diagram of the position of the double S pipes inside the toilet bowl after the double S pipes are turned over for the second time during the water pouring process according to the present invention;

FIG. 14 is a schematic diagram of the position of the double S-shaped pipes inside the toilet bowl after the double S-shaped pipes are reset for the second time in the water pouring process of the present invention;

wherein: 1 is the closestool, 101 is two S pipelines, 102 is a large amount of water, 103 is the middling amount of water, 104 is the little amount of water, 2 is the narrow roller line body, 3 is tilting mechanism, 301 is the support, 302 is the upset cylinder, 303 is the upset support, 4 is climbing mechanism, 401 is the jacking cylinder, 5 is the layer board, 6 is bracket mechanism, 601 is the bracket cylinder, 602 is the bracket hook, 7 is supplementary supporting mechanism, 701 is the auxiliary cylinder, 702 is the auxiliary pressure board, 8 is for keeping off the stop mechanism, 801 is for keeping off the stop cylinder, 802 is for keeping off the stop hook.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

As shown in fig. 1 to 9, the water pouring device of the present invention includes a turnover mechanism 3, a jacking mechanism 4, a bracket mechanism 6 and a stopping mechanism 8, wherein a toilet 1 is placed on a supporting plate 5 and is transported on a narrow roller line body 2, and the narrow roller line body 2 of the present embodiment is a prior art; the overturning mechanism 3 comprises supports 301, an overturning cylinder 302 and overturning supports 303, the supports 301 are symmetrically arranged on two sides of the narrow roller line body 2, the lower ends of the supports 301 are fixed with the ground, the overturning supports 303 are hinged between the upper ends of the supports 301 on the two sides, one end of the overturning cylinder 302 is hinged on the supports 301, and the other end of the overturning cylinder 302 is hinged with the overturning supports 303; the turning cylinder 302 of the present embodiment is one, and has a function of extending and retracting in a length direction to two positions, that is, the turning cylinder 302 provides two working positions of the turning bracket 303 relative to the support 301. The turnover mechanism 3 provides turnover at a fixed angle acute angle or right angle of less than or equal to 90 deg.. The narrow roller line body 2 between the supports 301 at the two sides is provided with the jacking mechanism 4, the closestool 1 and the supporting plate 5 are conveyed to the position above the jacking mechanism 4 to stop, and the narrow roller line body 2 is separated from the jacking mechanism 4 by jacking. The two sides of the closestool 1 are symmetrically provided with bracket mechanisms 6 arranged on the overturning support 303, the executing ends of the bracket mechanisms 6 are symmetrically provided with stopping mechanisms 8 arranged on the overturning support 303 at the two sides of the closestool 1 supported at the bottom of the supporting plate 5 after the closestool 1 and the supporting plate 5 are jacked, and the executing ends of the stopping mechanisms 8 are butted with the rear part of the closestool 1 after the closestool 1 and the supporting plate 5 are jacked and are stopped at the rear part of the closestool 1.

In order to ensure the stability of the toilet 1 and the supporting plate 5, in this embodiment, an auxiliary supporting mechanism 7 is further disposed above the jacking mechanism 4, the auxiliary supporting mechanism 7 is mounted on the turning support 303, and an actuating end of the auxiliary supporting mechanism 7 presses the front portion of the toilet 1 after the toilet 1 and the supporting plate 5 are jacked up.

The climbing mechanism 4 of this embodiment includes jacking cylinder 401, and this jacking cylinder 401 is installed on the narrow roller line body 2 that goes to, and when the position that 4 tops of climbing mechanism were transmitted to closestool 1 and layer board 5 stopped, jacking cylinder 401's piston rod upwards jacks up closestool 1 and layer board 5 along the direction of height. And when the piston rod of the jacking cylinder 401 jacks up the closestool 1 and the supporting plate 5, the piston rod is abutted against the middle position of the lower surface of the supporting plate 5 so as to ensure that the closestool 1 is stable on the supporting plate 5.

The bracket mechanism 6 of this embodiment includes a plurality of bracket cylinders 601, a plurality of bracket rods 603, and a plurality of bracket hooks 602 as an actuating end, the bracket hooks 602 are connected by the bracket rods 603, and the bracket rods 603 are hinged to the tilting bracket 303; one end of the bracket cylinder 601 is hinged to the turning support 303, and the other end is hinged to the bracket rod 603. After the toilet 1 and the pallet 5 are lifted up, the respective pallet hooks 602 are driven by the pallet cylinder 601 to synchronously operate to hold the lower surface of the pallet 5. The bracket cylinder 601 of the present embodiment has a length direction telescopic two-position function, that is, the bracket cylinder 601 provides two working positions of the bracket hook 602 relative to the flip bracket 302. The carriage mechanism 6 provides a deflection of a fixed angle acute or right angle of less than or equal to 90 deg..

The auxiliary supporting mechanism 7 of this embodiment includes an auxiliary cylinder 701 and an auxiliary pressing plate 702, the auxiliary cylinder 701 is installed on the turning support 303, and a piston rod of the auxiliary cylinder 701 is used as an execution end and connected with the auxiliary pressing plate 702; preferably, the piston rod of the auxiliary cylinder 701 is hinged to the auxiliary pressure plate 702. The auxiliary air cylinder 701 of the embodiment has a length direction telescopic two-position function, that is, the auxiliary air cylinder 701 provides two working positions of the auxiliary pressure plate 702 relative to the turning bracket 302. The auxiliary support mechanism 7 provides displacement in the linear direction. The lower surface of the auxiliary pressure plate 702 is in contact with the upper surface of the front of the toilet bowl 1.

The stop mechanism 8 of this embodiment includes a stop cylinder 801 and a stop hook 802 as an execution end, wherein one end of the stop cylinder 801 and the stop hook 802 are respectively hinged to the flip bracket 303, the other end of the stop cylinder 801 is hinged to one end of the stop hook 802, and the other end of the stop hook 802 abuts against the rear portion of the toilet 1 after the toilet 1 and the supporting plate 5 are lifted. The stop cylinder 801 of the present embodiment has a function of extending and retracting in the longitudinal direction at two positions, that is, the stop cylinder 801 provides two working positions of the stop hook 802 with respect to the roll-over bracket 302. The park mechanism 8 provides a fixed angular acute or right angle deflection of less than or equal to 90 °. The stopping hook 802 may contact the rear surface of the toilet bowl 1.

The water pouring method comprises the following steps:

the closestool 1 and the supporting plate 5 are conveyed to the position above the jacking mechanism 4 on the narrow-direction roller line body 2 to stop, and the jacking mechanism 4 works to jack the closestool 1 and the supporting plate 5 upwards along the height direction and is separated from the narrow-direction roller line body 2; the bracket mechanism 6 and the stopping mechanism 8 on the two sides of the closestool 1 work respectively, the execution end of the bracket mechanism 6 supports the supporting plate 5 and the closestool 1 on the two sides below the supporting plate 5, and the execution end of the stopping mechanism 8 stops the closestool 1 on the two sides of the rear part of the closestool 1; the actuating end of the auxiliary support mechanism 7 is pressed against the front part of the toilet 1 after the toilet 1 and the pallet 5 are jacked up. Then, the overturning cylinder 302 works to drive the overturning support 303 to drive the bracket mechanism 6, the auxiliary support mechanism 7, the stopping mechanism 8 on the overturning support 303 and the toilet bowl 1 and the supporting plate 5 which are supported and stopped by the bracket mechanism 6 and the stopping mechanism 8 to overturn and reset for multiple times, and the overturning and resetting of the toilet bowl 1 and the supporting plate 5 are carried out under the states of forward pressure, backward blocking and downward supporting until the water in the double-S pipeline 101 of the toilet bowl 1 is completely discharged from a water outlet; the toilet 1 and the supporting plate 5 after pouring water are driven by the jacking mechanism 4 to fall on the narrow-direction roller line body 2 and then are continuously transmitted by the narrow-direction roller line body 2. The method specifically comprises the following steps:

after the narrow-direction roller line body 2 conveys the toilet bowl 1 on the supporting plate 5 to a designated position above the jacking cylinder 401, the jacking cylinder 401 dynamically separates the toilet bowl 1, the supporting plate 5 and the narrow-direction roller line body 2 in the height direction. The bracket cylinder 601 drives the bracket hook 602 to position the toilet 1 and the pallet 5 from the lower side, the stop cylinder 801 positions the toilet 1 from the rear side, and the assist cylinder 701 positions the toilet 1 by pressing from above. The overturning cylinder 302 drives the overturning bracket 303 to rotate for the first time at a fixed angle from the initial position, so that a large amount of water 102 (shown in fig. 10) in the double-S pipeline 101 inside the closestool 1 is discharged from the water outlet, and a middle amount of water 103 (shown in fig. 11) is left; the overturning cylinder 302 drives the overturning bracket 303 to perform first fixed-angle rotary reset from the overturning position, the medium water 103 of the double-S pipeline 101 in the closestool 1 is discharged from the water outlet, and a small amount of water 104 is left (as shown in FIG. 12); the overturning cylinder 302 drives the overturning bracket 303 to rotate for the second time at a fixed angle from the initial position, and the small water 104 of the double-S pipeline 101 in the closestool 1 runs to the middle part of the double-S pipeline 101 in the closestool 1 (as shown in FIG. 13); the overturning cylinder 302 drives the overturning bracket 303 to perform a second fixed-angle rotation reset from a second overturning position (as shown in fig. 14), the small water 104 of the double-S pipeline 101 in the toilet 1 flushes the last S-shaped curve at the tail part of the double-S pipeline 101 in the toilet 1 at the position 10 in fig. 13 by using the conversion from gravitational potential energy to kinetic energy, and the small water 104 is discharged out of the double-S pipeline 101 in the toilet 1. The double-S pipeline 101 ceramic-made process drainage in the closestool 1 is realized by utilizing the fixed-angle overturning.

Claims

1. A water pouring device for a closestool double-S pipeline ceramic manufacturing process is characterized in that a closestool is placed on a supporting plate and is transmitted on a narrow-direction roller line body; the method is characterized in that: the water pouring device comprises a turnover mechanism (3), a jacking mechanism (4), a bracket mechanism (6) and a stopping mechanism (8), wherein the turnover mechanism (3) comprises supports (301), a turnover cylinder (302) and a turnover support (303), the supports (301) are symmetrically arranged on two sides of the narrow roller line body (2), the turnover support (303) is hinged between the supports (301) on two sides, one end of the turnover cylinder (302) is hinged to the support (301), and the other end of the turnover cylinder (302) is hinged to the turnover support (303); a jacking mechanism (4) is arranged on the narrow-direction roller line body (2) between the supports (301) at two sides, the closestool (1) and the supporting plate (5) are conveyed to a position above the jacking mechanism (4) to stop, and the narrow-direction roller line body (2) is jacked up by the jacking mechanism (4) to be separated from the narrow-direction roller line body; bracket mechanisms (6) arranged on the turnover support (303) are symmetrically arranged on two sides of the closestool (1), and the execution ends of the bracket mechanisms (6) are supported at the bottom of the supporting plate (5) after the closestool (1) and the supporting plate (5) are lifted; the two sides of the closestool (1) are symmetrically provided with stopping mechanisms (8) arranged on the turnover support (303), and the executing ends of the stopping mechanisms (8) are abutted against the rear part of the closestool (1) and stopped at the rear part of the closestool (1) after the closestool (1) and the supporting plate (5) are jacked up.

2. The pouring device of the toilet bowl double-S pipe ceramic manufacturing process according to claim 1, wherein: an auxiliary supporting mechanism (7) is installed on the overturning support (303), and the execution end of the auxiliary supporting mechanism (7) is pressed at the front part of the closestool (1) after the closestool (1) and the supporting plate (5) are jacked.

3. The pouring device of the toilet bowl double-S pipe ceramic manufacturing process according to claim 2, wherein: the auxiliary supporting mechanism (7) comprises an auxiliary cylinder (701) and an auxiliary pressing plate (702), the auxiliary cylinder (701) is installed on the overturning support (303), and a piston rod of the auxiliary cylinder (701) serves as an execution end and is connected with the auxiliary pressing plate (702).

4. The pouring device of the toilet bowl double-S pipe ceramic manufacturing process according to claim 1, wherein: the jacking mechanism (4) comprises a jacking cylinder (401), the jacking cylinder (401) is installed on the narrow roller line body (2), and when the toilet bowl (1) and the supporting plate (5) are transmitted to the position above the jacking mechanism (4) to stop, a piston rod of the jacking cylinder (401) jacks up the toilet bowl (1) and the supporting plate (5) upwards along the height direction.

5. The pouring device of the toilet bowl double-S pipe ceramic manufacturing process according to claim 4, wherein: when a piston rod of the jacking cylinder (401) jacks up the closestool (1) and the supporting plate (5), the piston rod is abutted against the middle position of the lower surface of the supporting plate (5).

6. The pouring device of the toilet bowl double-S pipe ceramic manufacturing process according to claim 1, wherein: the bracket mechanism (6) comprises a bracket cylinder (601) and a bracket hook (602) serving as an execution end, one end of the bracket cylinder (601) and the bracket hook (602) are respectively hinged to the overturning bracket (303), the other end of the bracket cylinder (601) is hinged to the bracket hook (602), and the bracket hook (602) supports the lower surface of the supporting plate (5) after the closestool (1) and the supporting plate (5) are jacked up.

7. The pouring device of the toilet bowl double-S pipe ceramic manufacturing process according to claim 6, wherein: the bracket comprises a plurality of bracket hooks (602), each bracket hook (602) is connected through a bracket rod (603), the bracket rods (603) are hinged on the overturning bracket (303), and the other end of the bracket cylinder (601) is hinged with the bracket rods (603) so as to drive each bracket hook (602) to synchronously move.

8. The pouring device of the toilet bowl double-S pipe ceramic manufacturing process according to claim 1, wherein: the stop mechanism (8) comprises a stop cylinder (801) and a stop hook (802) serving as an execution end, one end of the stop cylinder (801) and the stop hook (802) are hinged to the turnover support (303) respectively, the other end of the stop cylinder (801) is hinged to one end of the stop hook (802), and the other end of the stop hook (802) abuts against the rear portion of the closestool (1) after the closestool (1) and the supporting plate (5) are lifted.

9. A method for pouring water in a pouring device of a toilet bowl double S-channel ceramic manufacturing process according to any one of claims 1 to 8, wherein the method comprises the following steps: the closestool (1) and the supporting plate (5) are conveyed to the upper part of the jacking mechanism (4) on the narrow-direction roller line body (2) to stop, and the jacking mechanism (4) works to jack the closestool (1) and the supporting plate (5) upwards along the height direction and is separated from the narrow-direction roller line body (2); the bracket mechanisms (6) and the stopping mechanisms (8) on the two sides of the closestool (1) respectively work, the supporting plates (5) and the closestool (1) are supported by the two sides below the supporting plates (5) through the executing ends of the bracket mechanisms (6), and the closestool (1) is stopped by the executing ends of the stopping mechanisms (8) on the two sides of the rear part of the closestool (1); then, the overturning cylinder (302) works to drive the overturning support (303) to drive the bracket mechanism (6) and the stopping mechanism (8) on the overturning support (303) and the closestool (1) and the supporting plate (5) which are supported and stopped by the bracket mechanism (6) and the stopping mechanism (8) to overturn and reset for multiple times until water in the double S pipelines (101) of the closestool (1) is completely discharged from the water outlet; the toilet bowl (1) and the supporting plate (5) after water pouring are driven by the jacking mechanism (4) to fall on the narrow-direction roller line body (2), and then are continuously transmitted by the narrow-direction roller line body (2).

10. The method of pouring water according to claim 9, wherein: an auxiliary supporting mechanism (7) installed on the overturning support (303) is arranged above the jacking mechanism (4), an execution end of the auxiliary supporting mechanism (7) is pressed at the front part of the closestool (1) after the closestool (1) and the supporting plate (5) are jacked up, and forward pressing, rear blocking and lower supporting are realized in the overturning and resetting processes of the closestool (1) and the supporting plate (5).